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Spectroscopy of Bragg-scattered surface plasmons for characterization of thin biomolecular films
J Dostalek, P Adam, Ka P Kvasni, O Telezhnikova, JI Homola
Language English Country United States
- MeSH
- Biopolymers chemistry MeSH
- Financing, Organized MeSH
- Membranes, Artificial MeSH
- Surface Plasmon Resonance methods MeSH
- Scattering, Radiation MeSH
- Refractometry methods MeSH
- Spectrum Analysis methods MeSH
- Light MeSH
We report a new approach to characterization of thin (bio)molecular films based on spectroscopy of Bragg-scattered surface plasmons (BSSPs) generated by diffraction-coupling of counterpropagating surface plasmons on a metal-coated diffraction grating. The BSSPs exhibit fields with different penetration depths into the medium adjacent to the metal and therefore exhibit unequal sensitivities to the presence of (bio)molecular films on the surface of the metal. Therefore, spectroscopy of BSSPs enables in situ observation of the formation of biomolecular films and determination of both their refractive index and thickness. We demonstrate this capacity of spectroscopy of BSSPs in a model experiment in which growth of protein layers on a gold surface is studied.
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- $a Institute of Photonics and Electronics, Academy of Sciences of the Czech Republic, Prague, Czech Republic
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- $a We report a new approach to characterization of thin (bio)molecular films based on spectroscopy of Bragg-scattered surface plasmons (BSSPs) generated by diffraction-coupling of counterpropagating surface plasmons on a metal-coated diffraction grating. The BSSPs exhibit fields with different penetration depths into the medium adjacent to the metal and therefore exhibit unequal sensitivities to the presence of (bio)molecular films on the surface of the metal. Therefore, spectroscopy of BSSPs enables in situ observation of the formation of biomolecular films and determination of both their refractive index and thickness. We demonstrate this capacity of spectroscopy of BSSPs in a model experiment in which growth of protein layers on a gold surface is studied.
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